Ashwin Chetty scite author profile

Ashwin Chetty

5Publications

40Citation Statements Received

125Citation Statements Given

How they've been cited

How they cite others

402

122

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Yale University

Publications

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Use of Continuous Glucose Monitoring in Older Adults: A Review of Benefits, Challenges and Future Directions

Prasad-Reddy¹,

Godina²,

Chetty³

et al. 2022

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Many new technologies have been developed over the past decade, and these have substantially changed the way diabetes is managed. Continuous glucose monitoring is now the standard of care for many people living with diabetes, and among its numerous benefits, it has been shown to improve glycaemic outcomes and enhance quality of life. Older adults carry a high burden of diabetes and have a high risk of hypo-glycaemia and hypo-glycaemic unawareness, and continuous glucose monitoring can help to improve glycaemic management in this vulnerable population. Unfortunately, only a few trials have evaluated the effectiveness of continuous glucose monitoring in older adults. Certainly, the implementation of continuous glucose monitoring in older adults can come with many challenges, including logistical, educational and reimbursement barriers. This article will discuss the benefits of continuous glucose monitoring in older adults with diabetes, the clinical studies that support its use and the barriers to its optimal implementation in this population.

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Machine learning prediction of methionine and tryptophan photooxidation susceptibility

Delmar

Buehler

Chetty

et al. 2021

Molecular Therapy - Methods & Clinical Development

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Photooxidation of methionine (Met) and tryptophan (Trp) residues is common and includes major degradation pathways that often pose a serious threat to the success of therapeutic proteins. Oxidation impacts all steps of protein production, manufacturing, and shelf life. Prediction of oxidation liability as early as possible in development is important because many more candidate drugs are discovered than can be tested experimentally. Undetected oxidation liabilities necessitate expensive and time-consuming remediation strategies in development and may lead to good drugs reaching patients slowly. Conversely, sites mischaracterized as oxidation liabilities could result in overengineering and lead to good drugs never reaching patients. To our knowledge, no predictive model for photooxidation of Met or Trp is currently available. We applied the random forest machine learning algorithm to in-house liquid chromatography-tandem mass spectrometry (LC-MS/MS) datasets (Met, n = 421; Trp, n = 342) of tryptic therapeutic protein peptides to create computational models for Met and Trp photooxidation. We show that our machine learning models predict Met and Trp photooxidation likelihood with 0.926 and 0.860 area under the curve (AUC), respectively, and Met photooxidation rate with a correlation coefficient (Q 2 ) of 0.511 and root-mean-square error (RMSE) of 10.9%. We further identify important physical, chemical, and formulation parameters that influence photooxidation. Improvement of biopharmaceutical liability predictions will result in better, more stable drugs, increasing development throughput, product quality, and likelihood of clinical success.

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Recognition of physiological phosphorylation sites by p21-activated kinase 4

Chetty

Sexton

et al. 2020

Journal of Structural Biology

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Rho family GTPase signaling through type II p21-activated kinases

Chetty

Boggon

2022

Cell. Mol. Life Sci.

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Indoor Versus Outdoor: Does Occupational Sunlight Exposure Increase Melanoma Risk? A Systematic Review

Maduka

Kojima

Gonsai

et al. 2023

Journal of Surgical Research

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Ashwin Chetty

Use of Continuous Glucose Monitoring in Older Adults: A Review of Benefits, Challenges and Future Directions

Machine learning prediction of methionine and tryptophan photooxidation susceptibility

Recognition of physiological phosphorylation sites by p21-activated kinase 4

Rho family GTPase signaling through type II p21-activated kinases

Indoor Versus Outdoor: Does Occupational Sunlight Exposure Increase Melanoma Risk? A Systematic Review

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